// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0

#include "FindUsages.h"

#include "Overview.h"

#include <cplusplus/AST.h>
#include <cplusplus/ASTPath.h>
#include <cplusplus/Control.h>
#include <cplusplus/CoreTypes.h>
#include <cplusplus/Literals.h>
#include <cplusplus/Names.h>
#include <cplusplus/Scope.h>
#include <cplusplus/Symbols.h>
#include <cplusplus/TranslationUnit.h>
#include <cplusplus/TypeOfExpression.h>

#include <utils/qtcassert.h>

#include <QDebug>

#include <optional>

using namespace CPlusPlus;

FindUsages::FindUsages(const QByteArray &originalSource, Document::Ptr doc,
                       const Snapshot &snapshot, bool categorize)
    : ASTVisitor(doc->translationUnit()),
      _doc(doc),
      _snapshot(snapshot),
      _context(doc, snapshot),
      _originalSource(originalSource),
      _source(_doc->utf8Source()),
      _categorize(categorize)
{
    _snapshot.insert(_doc);
    typeofExpression.init(_doc, _snapshot, _context.bindings());

    prepareLines(_originalSource);
}

FindUsages::FindUsages(const LookupContext &context)
    : ASTVisitor(context.thisDocument()->translationUnit()),
      _doc(context.thisDocument()),
      _snapshot(context.snapshot()),
      _context(context),
      _originalSource(_doc->utf8Source()),
      _source(_doc->utf8Source())
{
    typeofExpression.init(_doc, _snapshot, _context.bindings());

    prepareLines(_originalSource);
}

QList<Usage> FindUsages::usages() const
{ return _usages; }

QList<int> FindUsages::references() const
{ return _references; }

void FindUsages::operator()(Symbol *symbol)
{
    if (! symbol)
        return;

    _id = symbol->identifier();

    if (! _id)
        return;

    _processed.clear();
    _references.clear();
    _usages.clear();
    _declSymbol = symbol;
    _declSymbolFullyQualifiedName = LookupContext::fullyQualifiedName(symbol);

    // get the canonical id
    _id = _doc->control()->identifier(_id->chars(), _id->size());

    if (AST *ast = _doc->translationUnit()->ast())
        translationUnit(ast->asTranslationUnit());
}

void FindUsages::reportResult(unsigned tokenIndex, const Name *name, Scope *scope)
{
    if (! (tokenIndex && name != nullptr))
        return;

    if (name->identifier() != _id)
        return;

    if (! scope)
        scope = _currentScope;

    const QList<LookupItem> candidates = _context.lookup(name, scope);
    reportResult(tokenIndex, candidates);
}

void FindUsages::reportResult(unsigned tokenIndex, const QList<LookupItem> &candidates)
{
    if (_processed.contains(tokenIndex))
        return;

    if (!checkCandidates(candidates))
        return;

    const Token &tk = tokenAt(tokenIndex);
    if (tk.generated())
        return;

    _processed.insert(tokenIndex);

    int line, col;
    getTokenStartPosition(tokenIndex, &line, &col);
    QString lineText;
    if (line < int(_sourceLineEnds.size()))
        lineText = fetchLine(line);
    else
        lineText = matchingLine(tk);
    const int len = tk.utf16chars();

    QString callerName;
    const Function * const caller = getContainingFunction(line, col);
    if (caller)
        callerName = Overview().prettyName(caller->name());
    Usage u(_doc->filePath(), lineText, callerName, getTags(line, col, tokenIndex),
            line, col - 1, len);
    u.containingFunctionSymbol = caller;
    _usages.append(u);
    _references.append(tokenIndex);
}

Function *FindUsages::getContainingFunction(int line, int column)
{
    const QList<AST *> astPath = ASTPath(_doc)(line, column);
    bool hasBlock = false;
    for (auto it = astPath.crbegin(); it != astPath.crend(); ++it) {
        if (!hasBlock && (*it)->asCompoundStatement())
            hasBlock = true;
        if (const auto func = (*it)->asFunctionDefinition()) {
            if (!hasBlock)
                return {};
            return func->symbol;
        }
    }
    return {};
}

class FindUsages::GetUsageTags
{
public:
    GetUsageTags(FindUsages *findUsages, const QList<AST *> &astPath, int tokenIndex)
        : m_findUsages(findUsages), m_astPath(astPath), m_tokenIndex(tokenIndex)
    {
    }

    Usage::Tags getTags() const
    {
        if (m_astPath.size() < 2 || !m_astPath.last()->asSimpleName())
            return {};

        for (auto it = m_astPath.rbegin() + 1; it != m_astPath.rend(); ++it) {
            if ((*it)->asExpressionStatement())
                return Usage::Tag::Read;
            if ((*it)->asSwitchStatement())
                return Usage::Tag::Read;
            if ((*it)->asCaseStatement())
                return Usage::Tag::Read;
            if ((*it)->asIfStatement())
                return Usage::Tag::Read;
            if ((*it)->asLambdaCapture())
                return {};
            if ((*it)->asTypenameTypeParameter())
                return Usage::Tag::Declaration;
            if ((*it)->asNewExpression())
                return {};
            if (ClassSpecifierAST *classSpec = (*it)->asClassSpecifier()) {
                if (classSpec->name == *(it - 1))
                    return Usage::Tag::Declaration;
                continue;
            }
            if (const auto memInitAst = (*it)->asMemInitializer()) {
                if (memInitAst->name == *(it - 1))
                    return Usage::Tag::Write;
                return Usage::Tag::Read;
            }
            if ((*it)->asCall())
                return checkPotentialWrite(getTagsForCall(it), it + 1);
            if ((*it)->asDeleteExpression())
                return Usage::Tag::Write;
            if (const auto binExpr = (*it)->asBinaryExpression()) {
                if (binExpr->left_expression == *(it - 1) && isAssignment(binExpr->binary_op_token))
                    return checkPotentialWrite(Usage::Tag::Write, it + 1);
                const std::optional<LookupItem> item = getTypeOfExpr(binExpr->left_expression,
                                                                     it + 1);
                if (!item)
                    return {};
                return checkPotentialWrite(getTagsFromLhsAndRhs(
                                               item->type(), binExpr->right_expression, it),
                                           it + 1);
            }
            if (const auto unaryOp = (*it)->asUnaryExpression()) {
                switch (m_findUsages->tokenKind(unaryOp->unary_op_token)) {
                case T_PLUS_PLUS: case T_MINUS_MINUS:
                    return checkPotentialWrite(Usage::Tag::Write, it + 1);
                case T_AMPER: case T_STAR:
                    continue;
                default:
                    return Usage::Tag::Read;
                }
            }
            if (const auto sizeofExpr = (*it)->asSizeofExpression()) {
                if (containsToken(sizeofExpr->expression))
                    return Usage::Tag::Read;
                return {};
            }
            if (const auto arrayExpr = (*it)->asArrayAccess()) {
                if (containsToken(arrayExpr->expression))
                    return Usage::Tag::Read;
                continue;
            }
            if (const auto postIncrDecrOp = (*it)->asPostIncrDecr())
                return checkPotentialWrite(Usage::Tag::Write, it + 1);
            if (const auto declaratorId = (*it)->asDeclaratorId()) {
                // We don't want to classify constructors and destructors as declarations
                // when listing class usages.
                if (m_findUsages->_declSymbol->asClass())
                    return Usage::Tag::ConstructorDestructor;
                continue;
            }
            if (const auto declarator = (*it)->asDeclarator()) {
                Usage::Tags tags;
                if (containsToken(declarator->core_declarator)) {
                    if (declarator->initializer && declarator->equal_token
                            && (!declarator->postfix_declarator_list
                            || !declarator->postfix_declarator_list->value
                            || !declarator->postfix_declarator_list->value->asFunctionDeclarator())) {
                        return {Usage::Tag::Declaration, Usage::Tag::Write};
                    }
                    tags = Usage::Tag::Declaration;
                    if (declarator->postfix_declarator_list
                            && declarator->postfix_declarator_list->value) {
                        if (const FunctionDeclaratorAST * const funcDecl = declarator
                                ->postfix_declarator_list->value->asFunctionDeclarator()) {
                            for (SpecifierListAST *iter = funcDecl->cv_qualifier_list; iter;
                                 iter = iter->next) {
                                if (!iter->value)
                                    continue;
                                if (const auto simpleSpec = iter->value->asSimpleSpecifier();
                                        simpleSpec && simpleSpec->specifier_token) {
                                    const Control * const ctl = m_findUsages->control();
                                    const Identifier * const id = m_findUsages->translationUnit()
                                            ->tokenAt(simpleSpec->specifier_token).identifier;
                                    if (id && (id->equalTo(ctl->cpp11Override())
                                               || id->equalTo(ctl->cpp11Final()))) {
                                        tags |= Usage::Tag::Override;
                                        break;
                                    }
                                }
                            }
                        }
                    }
                    if (const auto declId = declarator->core_declarator->asDeclaratorId()) {
                        if (declId->name && declId->name->asOperatorFunctionId())
                            tags |= Usage::Tag::Operator;
                    }
                }
                if (const auto decl = (*(it + 1))->asSimpleDeclaration()) {
                    if (tags.toInt() && decl->qt_invokable_token)
                        return tags |= Usage::Tag::MocInvokable;
                    if (decl->symbols && decl->symbols->value) {
                        if (!tags) {
                            return checkPotentialWrite(
                                        getTagsFromLhsAndRhs(decl->symbols->value->type(),
                                                             declarator->initializer, it + 1),
                                        it + 1);
                        }
                        Class *clazz = decl->symbols->value->enclosingClass();
                        if (clazz && clazz->name()
                                && decl->symbols->value->name()->match(clazz->name())) {
                            return tags |= Usage::Tag::ConstructorDestructor;
                        }
                        if (const auto func = decl->symbols->value->type()->asFunctionType()) {
                            if (func->isSignal() || func->isSlot() || func->isInvokable())
                                return tags |= Usage::Tag::MocInvokable;
                        }
                    }
                }
                for (auto it2 = it; it2 != m_astPath.rend(); ++it2) {
                    if ((*it2)->asTemplateDeclaration())
                        return tags |= Usage::Tag::Template;
                }
                return tags;
            }
            if (const auto retStmt = (*it)->asReturnStatement()) {
                for (auto funcIt = it + 1; funcIt != m_astPath.rend(); ++funcIt) {
                    if (FunctionDefinitionAST * const funcAst = (*funcIt)->asFunctionDefinition()) {
                        if (funcAst->symbol) {
                            return checkPotentialWrite(
                                        getTagsFromLhsAndRhs(funcAst->symbol->type(),
                                                                  retStmt->expression, funcIt),
                                        funcIt + 1);
                        }
                    }
                }
                return {};
            }
        }

        return {};
    }

private:
    using Iterator = QList<AST *>::const_reverse_iterator;

    bool containsToken(const AST *ast) const
    {
        return ast && ast->firstToken() <= m_tokenIndex && ast->lastToken() > m_tokenIndex;
    }

    bool isAssignment(int token) const
    {
        switch (m_findUsages->tokenKind(token)) {
        case T_AMPER_EQUAL: case T_CARET_EQUAL: case T_SLASH_EQUAL: case T_EQUAL:
        case T_MINUS_EQUAL: case T_PERCENT_EQUAL: case T_PIPE_EQUAL: case T_PLUS_EQUAL:
        case T_STAR_EQUAL: case T_TILDE_EQUAL:
            return true;
        default:
            return false;
        }
    }

    // This is called for the type of the LHS of an (initialization) assignment.
    // We consider the RHS to be writable through the LHS if the LHS is a pointer
    // that is non-const at any element level, or if it is a a non-const reference.
    static Usage::Tags getTagsFromDataType(FullySpecifiedType type)
    {
        if (type.isAuto())
            return {};
        if (const auto refType = type->asReferenceType())
            return refType->elementType().isConst() ? Usage::Tag::Read : Usage::Tag::WritableRef;
        while (type->asPointerType()) {
            type = type->asPointerType()->elementType();
            if (!type.isConst())
                return Usage::Tag::WritableRef;
        }
        return Usage::Tag::Read;
    }

    // If we found a potential write access inside a lambda, we have to check whether the variable
    // was captured by value. If so, it's not really a write access.
    // FIXME: The parser does not record whether the capture was by reference.
    Usage::Tags checkPotentialWrite(Usage::Tags tags, Iterator startIt) const
    {
        if (tags != Usage::Tag::Write && tags != Usage::Tag::WritableRef)
            return tags;
        for (auto it = startIt; it != m_astPath.rend(); ++it) {
            if ((*it)->firstToken() > m_tokenIndex)
                break;
            const auto lambdaExpr = (*it)->asLambdaExpression();
            if (!lambdaExpr)
                continue;
             LambdaCaptureAST * const captureAst = lambdaExpr->lambda_introducer->lambda_capture;
             if (!captureAst)
                 continue;
             for (CaptureListAST *capList = captureAst->capture_list; capList;
                  capList = capList->next) {
                 if (!capList->value || !capList->value->identifier)
                     continue;
                 if (!Matcher::match(m_findUsages->_declSymbol->name(),
                                     capList->value->identifier->name)) {
                     continue;
                 }
                 return capList->value->amper_token ? tags : Usage::Tag::Read;
             }
        }
        return tags;
    }

    const QList<LookupItem> getTypesOfExpr(ExpressionAST *expr, Iterator scopeSearchPos) const
    {
        if (!expr)
            return {};
        Scope *scope = nullptr;
        for (auto it = scopeSearchPos; !scope && it != m_astPath.rend(); ++it) {
            if (const auto stmt = (*it)->asCompoundStatement())
                scope = stmt->symbol;
            else if (const auto klass = (*it)->asClassSpecifier())
                scope = klass->symbol;
            else if (const auto ns = (*it)->asNamespace())
                scope = ns->symbol;
        }
        if (!scope)
            scope = m_findUsages->_doc->globalNamespace();
        return m_findUsages->typeofExpression(expr, m_findUsages->_doc, scope);
    }

    std::optional<LookupItem> getTypeOfExpr(ExpressionAST *expr, Iterator scopeSearchPos) const
    {
        const QList<LookupItem> items = getTypesOfExpr(expr, scopeSearchPos);
        if (items.isEmpty())
            return {};
        return std::optional<LookupItem>(items.first());
    }

    Usage::Tags getTagsFromLhsAndRhs(const FullySpecifiedType &lhsType, ExpressionAST *rhs,
                                          Iterator scopeSearchPos) const
    {
        const Usage::Tags tags = getTagsFromDataType(lhsType);
        if (tags.toInt())
            return tags;

        // If the lhs has type auto, we use the RHS type.
        const std::optional<LookupItem> item = getTypeOfExpr(rhs, scopeSearchPos);
        if (!item)
            return {};
        return getTagsFromDataType(item->type());
    }

    Usage::Tags getTagsForCall(Iterator callIt) const
    {
        CallAST * const call = (*callIt)->asCall();

        // Check whether this is a member function call on the symbol we are looking for
        // (possibly indirectly via a data member).
        // If it is and the function is not const, then this is a potential write.
        if (call->base_expression == *(callIt - 1)) {
            for (auto it = callIt; it != m_astPath.rbegin(); --it) {
                const auto memberAccess = (*it)->asMemberAccess();
                if (!memberAccess || !memberAccess->member_name || !memberAccess->member_name->name)
                    continue;
                if (memberAccess->member_name == *(it - 1))
                    return {};
                const std::optional<LookupItem> item = getTypeOfExpr(memberAccess->base_expression,
                                                                     it);
                if (!item)
                    return {};
                FullySpecifiedType baseExprType = item->type();
                if (const auto refType = baseExprType->asReferenceType())
                    baseExprType = refType->elementType();
                while (const auto ptrType = baseExprType->asPointerType())
                    baseExprType = ptrType->elementType();
                Class *klass = baseExprType->asClassType();
                const LookupContext context(m_findUsages->_doc, m_findUsages->_snapshot);
                QList<LookupItem> items;
                if (!klass) {
                    if (const auto namedType = baseExprType->asNamedType()) {
                        items = context.lookup(namedType->name(), item->scope());
                        for (const LookupItem &item : std::as_const(items)) {
                            if ((klass = item.type()->asClassType()))
                                break;
                        }
                    }
                }
                if (!klass)
                    return {};
                items = context.lookup(memberAccess->member_name->name, klass);
                if (items.isEmpty())
                    return {};
                for (const LookupItem &item : std::as_const(items)) {
                    if (item.type()->asFunctionType()) {
                        if (item.type().isConst())
                            return Usage::Tag::Read;
                        if (item.type().isStatic())
                            return {};
                        return Usage::Tag::WritableRef;
                    }
                }
            }
            return {};
        }

        // Check whether our symbol is passed as an argument to the function.
        // If it is and the corresponding parameter is a non-const pointer or reference,
        // then this is a potential write.
        bool match = false;
        int argPos = -1;
        for (ExpressionListAST *argList = call->expression_list; argList && !match;
             argList = argList->next, ++argPos) {
            match = argList->value == *(callIt - 1);
        }
        if (!match)
            return {};

        // If we find more than one overload with a matching number of arguments,
        // and they have conflicting usage types, then we give up and report Type::Other.
        // We could do better by trying to match the types manually and finding out
        // which overload is the right one, but that would be an inordinate amount
        // of effort and we'd still have no guarantee that the result is correct.
        Usage::Tags currentTags;
        for (const LookupItem &item : getTypesOfExpr(call->base_expression, callIt + 1)) {
            Function * const func = item.type()->asFunctionType();
            if (!func || func->argumentCount() <= argPos)
                continue;
            const Usage::Tags newTags = getTagsFromLhsAndRhs(
                        func->argumentAt(argPos)->type(), (*(callIt - 1))->asExpression(), callIt);
            if (newTags.toInt() && newTags != currentTags) {
                if (currentTags.toInt())
                    return {};
                currentTags = newTags;
            }
        }
        return currentTags;
    }

    FindUsages * const m_findUsages;
    const QList<AST *> &m_astPath;
    const int m_tokenIndex;
};

Usage::Tags FindUsages::getTags(int line, int column, int tokenIndex)
{
    if (!_categorize)
        return {};
    return GetUsageTags(this, ASTPath(_doc)(line, column), tokenIndex).getTags();
}

QString FindUsages::matchingLine(const Token &tk) const
{
    const char *beg = _source.constData();
    const char *cp = beg + tk.bytesBegin();
    for (; cp != beg - 1; --cp) {
        if (*cp == '\n')
            break;
    }

    ++cp;

    const char *lineEnd = cp + 1;
    for (; *lineEnd; ++lineEnd) {
        if (*lineEnd == '\n')
            break;
    }

    return QString::fromUtf8(cp, lineEnd - cp);
}

bool FindUsages::isLocalScope(Scope *scope)
{
    if (scope) {
        if (scope->asBlock() || scope->asTemplate() || scope->asFunction())
            return true;
    }

    return false;
}

bool FindUsages::checkCandidates(const QList<LookupItem> &candidates) const
{
    for (int i = candidates.size() - 1; i != -1; --i) {
        const LookupItem &r = candidates.at(i);

        if (Symbol *s = r.declaration()) {
            if (_declSymbol->asTypenameArgument() || _declSymbol->asTemplateTypeArgument()) {
                if (s != _declSymbol)
                    return false;
            }

            Scope *declEnclosingScope = _declSymbol->enclosingScope();
            Scope *enclosingScope = s->enclosingScope();
            if (isLocalScope(declEnclosingScope) || isLocalScope(enclosingScope)) {
                if (_declSymbol->asClass() && declEnclosingScope->asTemplate()
                        && s->asClass() && enclosingScope->asTemplate()) {
                    // for definition of functions of class defined outside the class definition
                    Scope *templEnclosingDeclSymbol = declEnclosingScope;
                    Scope *scopeOfTemplEnclosingDeclSymbol
                            = templEnclosingDeclSymbol->enclosingScope();
                    Scope *templEnclosingCandidateSymbol = enclosingScope;
                    Scope *scopeOfTemplEnclosingCandidateSymbol
                            = templEnclosingCandidateSymbol->enclosingScope();

                    if (scopeOfTemplEnclosingCandidateSymbol != scopeOfTemplEnclosingDeclSymbol)
                        return false;
                } else if (_declSymbol->asClass() && declEnclosingScope->asTemplate()
                        && enclosingScope->asClass()
                        && enclosingScope->enclosingScope()->asTemplate()) {
                    // for declaration inside template class
                    Scope *templEnclosingDeclSymbol = declEnclosingScope;
                    Scope *scopeOfTemplEnclosingDeclSymbol
                            = templEnclosingDeclSymbol->enclosingScope();
                    Scope *templEnclosingCandidateSymbol = enclosingScope->enclosingScope();
                    Scope *scopeOfTemplEnclosingCandidateSymbol
                            = templEnclosingCandidateSymbol->enclosingScope();

                    if (scopeOfTemplEnclosingCandidateSymbol !=  scopeOfTemplEnclosingDeclSymbol)
                        return false;
                } else if (enclosingScope->asTemplate() &&
                           ! (_declSymbol->asTypenameArgument() || _declSymbol->asTemplateTypeArgument())) {
                    if (declEnclosingScope->asTemplate()) {
                        if (enclosingScope->enclosingScope() != declEnclosingScope->enclosingScope())
                            return false;
                    } else {
                        if (enclosingScope->enclosingScope() != declEnclosingScope)
                            return false;
                    }
                } else if (declEnclosingScope->asTemplate() && s->asTemplate()) {
                    if (declEnclosingScope->enclosingScope() != enclosingScope)
                        return false;
                } else if (! s->asUsingDeclaration()
                           && enclosingScope != declEnclosingScope) {
                    return false;
                }
            }

            if (compareFullyQualifiedName(LookupContext::fullyQualifiedName(s), _declSymbolFullyQualifiedName))
                return true;
        }
    }

    return false;
}

void FindUsages::checkExpression(unsigned startToken, unsigned endToken, Scope *scope)
{
    const unsigned begin = tokenAt(startToken).bytesBegin();
    const unsigned end = tokenAt(endToken).bytesEnd();

    const QByteArray expression = _source.mid(begin, end - begin);
    // qDebug() << "*** check expression:" << expression;

    if (! scope)
        scope = _currentScope;

    // make possible to instantiate templates
    typeofExpression.setExpandTemplates(true);
    const QList<LookupItem> results = typeofExpression(expression, scope, TypeOfExpression::Preprocess);
    reportResult(endToken, results);
}

Scope *FindUsages::switchScope(Scope *scope)
{
    if (! scope)
        return _currentScope;

    Scope *previousScope = _currentScope;
    _currentScope = scope;
    return previousScope;
}

void FindUsages::statement(StatementAST *ast)
{
    accept(ast);
}

void FindUsages::expression(ExpressionAST *ast)
{
    accept(ast);
}

void FindUsages::declaration(DeclarationAST *ast)
{
    accept(ast);
}

const Name *FindUsages::name(NameAST *ast)
{
    if (ast) {
        accept(ast);
        return ast->name;
    }

    return nullptr;
}

void FindUsages::specifier(SpecifierAST *ast)
{
    accept(ast);
}

void FindUsages::ptrOperator(PtrOperatorAST *ast)
{
    accept(ast);
}

void FindUsages::coreDeclarator(CoreDeclaratorAST *ast)
{
    accept(ast);
}

void FindUsages::postfixDeclarator(PostfixDeclaratorAST *ast)
{
    accept(ast);
}

// AST
bool FindUsages::visit(ObjCSelectorArgumentAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCSelectorArgument(ObjCSelectorArgumentAST *ast)
{
    if (! ast)
        return;

    // unsigned name_token = ast->name_token;
    // unsigned colon_token = ast->colon_token;
}

bool FindUsages::visit(GnuAttributeAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::attribute(GnuAttributeAST *ast)
{
    if (! ast)
        return;

    // unsigned identifier_token = ast->identifier_token;
    // unsigned lparen_token = ast->lparen_token;
    // unsigned tag_token = ast->tag_token;
    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
}

bool FindUsages::visit(DeclaratorAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::declarator(DeclaratorAST *ast, Scope *symbol)
{
    if (! ast)
        return;

    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    for (PtrOperatorListAST *it = ast->ptr_operator_list; it; it = it->next) {
        this->ptrOperator(it->value);
    }

    Scope *previousScope = switchScope(symbol);

    this->coreDeclarator(ast->core_declarator);
    for (PostfixDeclaratorListAST *it = ast->postfix_declarator_list; it; it = it->next) {
        this->postfixDeclarator(it->value);
    }
    for (SpecifierListAST *it = ast->post_attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned equals_token = ast->equals_token;
    this->expression(ast->initializer);
    (void) switchScope(previousScope);
}

bool FindUsages::visit(QtPropertyDeclarationItemAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::qtPropertyDeclarationItem(QtPropertyDeclarationItemAST *ast)
{
    if (! ast)
        return;

    // unsigned item_name_token = ast->item_name_token;
    this->expression(ast->expression);
}

bool FindUsages::visit(QtInterfaceNameAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::qtInterfaceName(QtInterfaceNameAST *ast)
{
    if (! ast)
        return;

    /*const Name *interface_name =*/ this->name(ast->interface_name);
    for (NameListAST *it = ast->constraint_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
}

bool FindUsages::visit(BaseSpecifierAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::baseSpecifier(BaseSpecifierAST *ast)
{
    if (! ast)
        return;

    // unsigned virtual_token = ast->virtual_token;
    // unsigned access_specifier_token = ast->access_specifier_token;
    /*const Name *name =*/ this->name(ast->name);
    // BaseClass *symbol = ast->symbol;
}

bool FindUsages::visit(CtorInitializerAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::ctorInitializer(CtorInitializerAST *ast)
{
    if (! ast)
        return;

    // unsigned colon_token = ast->colon_token;
    for (MemInitializerListAST *it = ast->member_initializer_list; it; it = it->next) {
        this->memInitializer(it->value);
    }
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
}

bool FindUsages::visit(EnumeratorAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::enumerator(EnumeratorAST *ast)
{
    if (! ast)
        return;

    // unsigned identifier_token = ast->identifier_token;
    reportResult(ast->identifier_token, identifier(ast->identifier_token));
    // unsigned equal_token = ast->equal_token;
    this->expression(ast->expression);
}

bool FindUsages::visit(DynamicExceptionSpecificationAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::exceptionSpecification(ExceptionSpecificationAST *ast)
{
    if (! ast)
        return;

    if (DynamicExceptionSpecificationAST *dyn = ast->asDynamicExceptionSpecification()) {
        // unsigned throw_token = ast->throw_token;
        // unsigned lparen_token = ast->lparen_token;
        // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
        for (ExpressionListAST *it = dyn->type_id_list; it; it = it->next) {
            this->expression(it->value);
        }
        // unsigned rparen_token = ast->rparen_token;
    } else if (NoExceptSpecificationAST *no = ast->asNoExceptSpecification()) {
        this->expression(no->expression);
    }
}

bool FindUsages::visit(MemInitializerAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::memInitializer(MemInitializerAST *ast)
{
    if (! ast)
        return;

    if (_currentScope->asFunction()) {
        Class *classScope = _currentScope->enclosingClass();
        if (! classScope) {
            if (ClassOrNamespace *binding = _context.lookupType(_currentScope)) {
                const QList<Symbol *> symbols = binding->symbols();
                for (Symbol *s : symbols) {
                    if (Class *k = s->asClass()) {
                        classScope = k;
                        break;
                    }
                }
            }
        }

        if (classScope) {
            Scope *previousScope = switchScope(classScope);
            /*const Name *name =*/ this->name(ast->name);
            (void) switchScope(previousScope);
        }
    }
    this->expression(ast->expression);
}

bool FindUsages::visit(NestedNameSpecifierAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::nestedNameSpecifier(NestedNameSpecifierAST *ast)
{
    if (! ast)
        return;

    /*const Name *class_or_namespace_name =*/ this->name(ast->class_or_namespace_name);
    // unsigned scope_token = ast->scope_token;
}

bool FindUsages::visit(ExpressionListParenAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

void FindUsages::newPlacement(ExpressionListParenAST *ast)
{
    if (! ast)
        return;

    // unsigned lparen_token = ast->lparen_token;
    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
}

bool FindUsages::visit(NewArrayDeclaratorAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::newArrayDeclarator(NewArrayDeclaratorAST *ast)
{
    if (! ast)
        return;

    // unsigned lbracket_token = ast->lbracket_token;
    this->expression(ast->expression);
    // unsigned rbracket_token = ast->rbracket_token;
}

bool FindUsages::visit(NewTypeIdAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::newTypeId(NewTypeIdAST *ast)
{
    if (! ast)
        return;

    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    for (PtrOperatorListAST *it = ast->ptr_operator_list; it; it = it->next) {
        this->ptrOperator(it->value);
    }
    for (NewArrayDeclaratorListAST *it = ast->new_array_declarator_list; it; it = it->next) {
        this->newArrayDeclarator(it->value);
    }
}

bool FindUsages::visit(OperatorAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::cppOperator(OperatorAST *ast)
{
    if (! ast)
        return;

    // unsigned op_token = ast->op_token;
    // unsigned open_token = ast->open_token;
    // unsigned close_token = ast->close_token;
}

bool FindUsages::visit(ParameterDeclarationClauseAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::parameterDeclarationClause(ParameterDeclarationClauseAST *ast)
{
    if (! ast)
        return;

    for (ParameterDeclarationListAST *it = ast->parameter_declaration_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
}

bool FindUsages::visit(TranslationUnitAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::translationUnit(TranslationUnitAST *ast)
{
    if (! ast)
        return;

    Scope *previousScope = switchScope(_doc->globalNamespace());
    for (DeclarationListAST *it = ast->declaration_list; it; it = it->next) {
        this->declaration(it->value);
    }
    (void) switchScope(previousScope);
}

bool FindUsages::visit(ObjCProtocolRefsAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCProtocolRefs(ObjCProtocolRefsAST *ast)
{
    if (! ast)
        return;

    // unsigned less_token = ast->less_token;
    for (NameListAST *it = ast->identifier_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
    // unsigned greater_token = ast->greater_token;
}

bool FindUsages::visit(ObjCMessageArgumentAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCMessageArgument(ObjCMessageArgumentAST *ast)
{
    if (! ast)
        return;

    this->expression(ast->parameter_value_expression);
}

bool FindUsages::visit(ObjCTypeNameAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCTypeName(ObjCTypeNameAST *ast)
{
    if (! ast)
        return;

    // unsigned lparen_token = ast->lparen_token;
    // unsigned type_qualifier_token = ast->type_qualifier_token;
    this->expression(ast->type_id);
    // unsigned rparen_token = ast->rparen_token;
}

bool FindUsages::visit(ObjCInstanceVariablesDeclarationAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCInstanceVariablesDeclaration(ObjCInstanceVariablesDeclarationAST *ast)
{
    if (! ast)
        return;

    // unsigned lbrace_token = ast->lbrace_token;
    for (DeclarationListAST *it = ast->instance_variable_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned rbrace_token = ast->rbrace_token;
}

bool FindUsages::visit(ObjCPropertyAttributeAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCPropertyAttribute(ObjCPropertyAttributeAST *ast)
{
    if (! ast)
        return;

    // unsigned attribute_identifier_token = ast->attribute_identifier_token;
    // unsigned equals_token = ast->equals_token;
    /*const Name *method_selector =*/ this->name(ast->method_selector);
}

bool FindUsages::visit(ObjCMessageArgumentDeclarationAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCMessageArgumentDeclaration(ObjCMessageArgumentDeclarationAST *ast)
{
    if (! ast)
        return;

    this->objCTypeName(ast->type_name);
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    /*const Name *param_name =*/ this->name(ast->param_name);
    // Argument *argument = ast->argument;
}

bool FindUsages::visit(ObjCMethodPrototypeAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCMethodPrototype(ObjCMethodPrototypeAST *ast)
{
    if (! ast)
        return;

    // unsigned method_type_token = ast->method_type_token;
    this->objCTypeName(ast->type_name);
    /*const Name *selector =*/ this->name(ast->selector);
    Scope *previousScope = switchScope(ast->symbol);
    for (ObjCMessageArgumentDeclarationListAST *it = ast->argument_list; it; it = it->next) {
        this->objCMessageArgumentDeclaration(it->value);
    }
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // ObjCMethod *symbol = ast->symbol;
    (void) switchScope(previousScope);
}

bool FindUsages::visit(ObjCSynthesizedPropertyAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::objCSynthesizedProperty(ObjCSynthesizedPropertyAST *ast)
{
    if (! ast)
        return;

    // unsigned property_identifier_token = ast->property_identifier_token;
    // unsigned equals_token = ast->equals_token;
    // unsigned alias_identifier_token = ast->alias_identifier_token;
}

bool FindUsages::visit(LambdaIntroducerAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::lambdaIntroducer(LambdaIntroducerAST *ast)
{
    if (! ast)
        return;

    // unsigned lbracket_token = ast->lbracket_token;
    this->lambdaCapture(ast->lambda_capture);
    // unsigned rbracket_token = ast->rbracket_token;
}

bool FindUsages::visit(LambdaCaptureAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::lambdaCapture(LambdaCaptureAST *ast)
{
    if (! ast)
        return;

    // unsigned default_capture_token = ast->default_capture_token;
    for (CaptureListAST *it = ast->capture_list; it; it = it->next) {
        this->capture(it->value);
    }
}

bool FindUsages::visit(CaptureAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::capture(CaptureAST *ast)
{
    if (! ast)
        return;

    this->name(ast->identifier);
}

bool FindUsages::visit(LambdaDeclaratorAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::lambdaDeclarator(LambdaDeclaratorAST *ast)
{
    if (! ast)
        return;

    // unsigned lparen_token = ast->lparen_token;
    this->parameterDeclarationClause(ast->parameter_declaration_clause);
    // unsigned rparen_token = ast->rparen_token;
    for (SpecifierListAST *it = ast->attributes; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned mutable_token = ast->mutable_token;
    this->exceptionSpecification(ast->exception_specification);
    this->trailingReturnType(ast->trailing_return_type);
}

bool FindUsages::visit(TrailingReturnTypeAST *ast)
{
    (void) ast;
    QTC_CHECK(false);
    return false;
}

void FindUsages::trailingReturnType(TrailingReturnTypeAST *ast)
{
    if (! ast)
        return;

    // unsigned arrow_token = ast->arrow_token;
    for (SpecifierListAST *it = ast->attributes; it; it = it->next) {
        this->specifier(it->value);
    }
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
}


// StatementAST
bool FindUsages::visit(QtMemberDeclarationAST *ast)
{
    // unsigned q_token = ast->q_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->type_id);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(CaseStatementAST *ast)
{
    // unsigned case_token = ast->case_token;
    this->expression(ast->expression);
    // unsigned colon_token = ast->colon_token;
    this->statement(ast->statement);
    return false;
}

bool FindUsages::visit(CompoundStatementAST *ast)
{
    // unsigned lbrace_token = ast->lbrace_token;
    Scope *previousScope = switchScope(ast->symbol);
    for (StatementListAST *it = ast->statement_list; it; it = it->next) {
        this->statement(it->value);
    }
    // unsigned rbrace_token = ast->rbrace_token;
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(DeclarationStatementAST *ast)
{
    this->declaration(ast->declaration);
    return false;
}

bool FindUsages::visit(DoStatementAST *ast)
{
    // unsigned do_token = ast->do_token;
    this->statement(ast->statement);
    // unsigned while_token = ast->while_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ExpressionOrDeclarationStatementAST *ast)
{
    this->statement(ast->expression);
    this->statement(ast->declaration);
    return false;
}

bool FindUsages::visit(ExpressionStatementAST *ast)
{
    this->expression(ast->expression);
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ForeachStatementAST *ast)
{
    // unsigned foreach_token = ast->foreach_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    this->expression(ast->initializer);
    // unsigned comma_token = ast->comma_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(RangeBasedForStatementAST *ast)
{
    Scope *previousScope = switchScope(ast->symbol);
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    // unsigned comma_token = ast->comma_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(ForStatementAST *ast)
{
    // unsigned for_token = ast->for_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    this->statement(ast->initializer);
    this->expression(ast->condition);
    // unsigned semicolon_token = ast->semicolon_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(IfStatementAST *ast)
{
    // unsigned if_token = ast->if_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    this->expression(ast->condition);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // unsigned else_token = ast->else_token;
    this->statement(ast->else_statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(LabeledStatementAST *ast)
{
    // unsigned label_token = ast->label_token;
    // unsigned colon_token = ast->colon_token;
    this->statement(ast->statement);
    return false;
}

bool FindUsages::visit(BreakStatementAST *ast)
{
    (void) ast;
    // unsigned break_token = ast->break_token;
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ContinueStatementAST *ast)
{
    (void) ast;
    // unsigned continue_token = ast->continue_token;
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(GotoStatementAST *ast)
{
    (void) ast;
    // unsigned goto_token = ast->goto_token;
    // unsigned identifier_token = ast->identifier_token;
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ReturnStatementAST *ast)
{
    // unsigned return_token = ast->return_token;
    this->expression(ast->expression);
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(SwitchStatementAST *ast)
{
    // unsigned switch_token = ast->switch_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    this->expression(ast->condition);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(TryBlockStatementAST *ast)
{
    // unsigned try_token = ast->try_token;
    this->statement(ast->statement);
    for (CatchClauseListAST *it = ast->catch_clause_list; it; it = it->next) {
        this->statement(it->value);
    }
    return false;
}

bool FindUsages::visit(CatchClauseAST *ast)
{
    // unsigned catch_token = ast->catch_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    this->declaration(ast->exception_declaration);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(WhileStatementAST *ast)
{
    // unsigned while_token = ast->while_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    this->expression(ast->condition);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(ObjCFastEnumerationAST *ast)
{
    // unsigned for_token = ast->for_token;
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    this->expression(ast->initializer);
    // unsigned in_token = ast->in_token;
    this->expression(ast->fast_enumeratable_expression);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    // Block *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(ObjCSynchronizedStatementAST *ast)
{
    // unsigned synchronized_token = ast->synchronized_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->synchronized_object);
    // unsigned rparen_token = ast->rparen_token;
    this->statement(ast->statement);
    return false;
}


// ExpressionAST
bool FindUsages::visit(IdExpressionAST *ast)
{
    /*const Name *name =*/ this->name(ast->name);
    return false;
}

bool FindUsages::visit(CompoundExpressionAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    this->statement(ast->statement);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(CompoundLiteralAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->type_id);
    // unsigned rparen_token = ast->rparen_token;
    this->expression(ast->initializer);
    return false;
}

bool FindUsages::visit(QtMethodAST *ast)
{
    // unsigned method_token = ast->method_token;
    // unsigned lparen_token = ast->lparen_token;
    this->declarator(ast->declarator);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(BinaryExpressionAST *ast)
{
    this->expression(ast->left_expression);
    // unsigned binary_op_token = ast->binary_op_token;
    this->expression(ast->right_expression);
    return false;
}

bool FindUsages::visit(CastExpressionAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->type_id);
    // unsigned rparen_token = ast->rparen_token;
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(ConditionAST *ast)
{
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    return false;
}

bool FindUsages::visit(ConditionalExpressionAST *ast)
{
    this->expression(ast->condition);
    // unsigned question_token = ast->question_token;
    this->expression(ast->left_expression);
    // unsigned colon_token = ast->colon_token;
    this->expression(ast->right_expression);
    return false;
}

bool FindUsages::visit(CppCastExpressionAST *ast)
{
    // unsigned cast_token = ast->cast_token;
    // unsigned less_token = ast->less_token;
    this->expression(ast->type_id);
    // unsigned greater_token = ast->greater_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(DeleteExpressionAST *ast)
{
    // unsigned scope_token = ast->scope_token;
    // unsigned delete_token = ast->delete_token;
    // unsigned lbracket_token = ast->lbracket_token;
    // unsigned rbracket_token = ast->rbracket_token;
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(ArrayInitializerAST *ast)
{
    // unsigned lbrace_token = ast->lbrace_token;
    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned rbrace_token = ast->rbrace_token;
    return false;
}

bool FindUsages::visit(NewExpressionAST *ast)
{
    // unsigned scope_token = ast->scope_token;
    // unsigned new_token = ast->new_token;
    this->newPlacement(ast->new_placement);
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->type_id);
    // unsigned rparen_token = ast->rparen_token;
    this->newTypeId(ast->new_type_id);
    this->expression(ast->new_initializer);
    return false;
}

bool FindUsages::visit(TypeidExpressionAST *ast)
{
    // unsigned typeid_token = ast->typeid_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(TypenameCallExpressionAST *ast)
{
    // unsigned typename_token = ast->typename_token;
    /*const Name *name =*/ this->name(ast->name);
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(TypeConstructorCallAST *ast)
{
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(SizeofExpressionAST *ast)
{
    // unsigned sizeof_token = ast->sizeof_token;
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(PointerLiteralAST *ast)
{
    (void) ast;
    // unsigned literal_token = ast->literal_token;
    return false;
}

bool FindUsages::visit(NumericLiteralAST *ast)
{
    (void) ast;
    // unsigned literal_token = ast->literal_token;
    return false;
}

bool FindUsages::visit(BoolLiteralAST *ast)
{
    (void) ast;
    // unsigned literal_token = ast->literal_token;
    return false;
}

bool FindUsages::visit(ThisExpressionAST *ast)
{
    (void) ast;
    // unsigned this_token = ast->this_token;
    return false;
}

bool FindUsages::visit(NestedExpressionAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(StringLiteralAST *ast)
{
    // unsigned literal_token = ast->literal_token;
    this->expression(ast->next);
    return false;
}

bool FindUsages::visit(ThrowExpressionAST *ast)
{
    // unsigned throw_token = ast->throw_token;
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(NoExceptOperatorExpressionAST* ast)
{
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(TypeIdAST *ast)
{
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    return false;
}

bool FindUsages::visit(UnaryExpressionAST *ast)
{
    // unsigned unary_op_token = ast->unary_op_token;
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(ObjCMessageExpressionAST *ast)
{
    // unsigned lbracket_token = ast->lbracket_token;
    this->expression(ast->receiver_expression);
    /*const Name *selector =*/ this->name(ast->selector);
    for (ObjCMessageArgumentListAST *it = ast->argument_list; it; it = it->next) {
        this->objCMessageArgument(it->value);
    }
    // unsigned rbracket_token = ast->rbracket_token;
    return false;
}

bool FindUsages::visit(ObjCProtocolExpressionAST *ast)
{
    (void) ast;
    // unsigned protocol_token = ast->protocol_token;
    // unsigned lparen_token = ast->lparen_token;
    // unsigned identifier_token = ast->identifier_token;
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(ObjCEncodeExpressionAST *ast)
{
    // unsigned encode_token = ast->encode_token;
    this->objCTypeName(ast->type_name);
    return false;
}

bool FindUsages::visit(ObjCSelectorExpressionAST *ast)
{
    // unsigned selector_token = ast->selector_token;
    // unsigned lparen_token = ast->lparen_token;
    /*const Name *selector =*/ this->name(ast->selector);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(LambdaExpressionAST *ast)
{
    this->lambdaIntroducer(ast->lambda_introducer);
    this->lambdaDeclarator(ast->lambda_declarator);
    this->statement(ast->statement);
    return false;
}

bool FindUsages::visit(BracedInitializerAST *ast)
{
    // unsigned lbrace_token = ast->lbrace_token;
    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned comma_token = ast->comma_token;
    // unsigned rbrace_token = ast->rbrace_token;
    return false;
}


// DeclarationAST
bool FindUsages::visit(SimpleDeclarationAST *ast)
{
    // unsigned qt_invokable_token = ast->qt_invokable_token;
    for (SpecifierListAST *it = ast->decl_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    for (DeclaratorListAST *it = ast->declarator_list; it; it = it->next) {
        this->declarator(it->value);
    }
    // unsigned semicolon_token = ast->semicolon_token;
    // List<Declaration *> *symbols = ast->symbols;
    return false;
}

bool FindUsages::visit(EmptyDeclarationAST *ast)
{
    (void) ast;
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(AccessDeclarationAST *ast)
{
    (void) ast;
    // unsigned access_specifier_token = ast->access_specifier_token;
    // unsigned slots_token = ast->slots_token;
    // unsigned colon_token = ast->colon_token;
    return false;
}

bool FindUsages::visit(QtObjectTagAST *ast)
{
    (void) ast;
    // unsigned q_object_token = ast->q_object_token;
    return false;
}

bool FindUsages::visit(QtPrivateSlotAST *ast)
{
    // unsigned q_private_slot_token = ast->q_private_slot_token;
    // unsigned lparen_token = ast->lparen_token;
    // unsigned dptr_token = ast->dptr_token;
    // unsigned dptr_lparen_token = ast->dptr_lparen_token;
    // unsigned dptr_rparen_token = ast->dptr_rparen_token;
    // unsigned comma_token = ast->comma_token;
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(QtPropertyDeclarationAST *ast)
{
    // unsigned property_specifier_token = ast->property_specifier_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->type_id);
    /*const Name *property_name =*/ this->name(ast->property_name);
    for (QtPropertyDeclarationItemListAST *it = ast->property_declaration_item_list; it; it = it->next) {
        this->qtPropertyDeclarationItem(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(QtEnumDeclarationAST *ast)
{
    // unsigned enum_specifier_token = ast->enum_specifier_token;
    // unsigned lparen_token = ast->lparen_token;
    for (NameListAST *it = ast->enumerator_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(QtFlagsDeclarationAST *ast)
{
    // unsigned flags_specifier_token = ast->flags_specifier_token;
    // unsigned lparen_token = ast->lparen_token;
    for (NameListAST *it = ast->flag_enums_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(QtInterfacesDeclarationAST *ast)
{
    // unsigned interfaces_token = ast->interfaces_token;
    // unsigned lparen_token = ast->lparen_token;
    for (QtInterfaceNameListAST *it = ast->interface_name_list; it; it = it->next) {
        this->qtInterfaceName(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(AsmDefinitionAST *ast)
{
    (void) ast;
    // unsigned asm_token = ast->asm_token;
    // unsigned volatile_token = ast->volatile_token;
    // unsigned lparen_token = ast->lparen_token;
    // unsigned rparen_token = ast->rparen_token;
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ExceptionDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    return false;
}

bool FindUsages::visit(FunctionDefinitionAST *ast)
{
    // unsigned qt_invokable_token = ast->qt_invokable_token;
    for (SpecifierListAST *it = ast->decl_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator, ast->symbol);
    Scope *previousScope = switchScope(ast->symbol);
    this->ctorInitializer(ast->ctor_initializer);
    this->statement(ast->function_body);
    // Function *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(LinkageBodyAST *ast)
{
    // unsigned lbrace_token = ast->lbrace_token;
    for (DeclarationListAST *it = ast->declaration_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned rbrace_token = ast->rbrace_token;
    return false;
}

bool FindUsages::visit(LinkageSpecificationAST *ast)
{
    // unsigned extern_token = ast->extern_token;
    // unsigned extern_type_token = ast->extern_type_token;
    this->declaration(ast->declaration);
    return false;
}

bool FindUsages::visit(NamespaceAST *ast)
{
    // unsigned namespace_token = ast->namespace_token;
    // unsigned identifier_token = ast->identifier_token;
    reportResult(ast->identifier_token, identifier(ast->identifier_token));
    Scope *previousScope = switchScope(ast->symbol);
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declaration(ast->linkage_body);
    // Namespace *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(NamespaceAliasDefinitionAST *ast)
{
    // unsigned namespace_token = ast->namespace_token;
    // unsigned namespace_name_token = ast->namespace_name_token;
    // unsigned equal_token = ast->equal_token;
    /*const Name *name =*/ this->name(ast->name);
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ParameterDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->declarator(ast->declarator);
    // unsigned equal_token = ast->equal_token;
    this->expression(ast->expression);
    // Argument *symbol = ast->symbol;
    return false;
}

bool FindUsages::visit(StaticAssertDeclarationAST *ast)
{
    this->expression(ast->expression);
    return false;
}

bool FindUsages::visit(TemplateDeclarationAST *ast)
{
    // unsigned export_token = ast->export_token;
    // unsigned template_token = ast->template_token;
    // unsigned less_token = ast->less_token;

    Scope *previousScope = switchScope(ast->symbol);

    for (DeclarationListAST *it = ast->template_parameter_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned greater_token = ast->greater_token;
    this->declaration(ast->declaration);

    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(TypenameTypeParameterAST *ast)
{
    // unsigned classkey_token = ast->classkey_token;
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    /*const Name *name =*/ this->name(ast->name);
    // unsigned equal_token = ast->equal_token;
    this->expression(ast->type_id);
    // TypenameArgument *symbol = ast->symbol;
    return false;
}

bool FindUsages::visit(TemplateTypeParameterAST *ast)
{
    // unsigned template_token = ast->template_token;
    // unsigned less_token = ast->less_token;
    for (DeclarationListAST *it = ast->template_parameter_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned greater_token = ast->greater_token;
    // unsigned class_token = ast->class_token;
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    /*const Name *name =*/ this->name(ast->name);
    // unsigned equal_token = ast->equal_token;
    this->expression(ast->type_id);
    // TypenameArgument *symbol = ast->symbol;
    return false;
}

bool FindUsages::visit(UsingAST *ast)
{
    // unsigned using_token = ast->using_token;
    // unsigned typename_token = ast->typename_token;
    /*const Name *name =*/ this->name(ast->name);
    // unsigned semicolon_token = ast->semicolon_token;
    // UsingDeclaration *symbol = ast->symbol;
    return false;
}

bool FindUsages::visit(UsingDirectiveAST *ast)
{
    // unsigned using_token = ast->using_token;
    // unsigned namespace_token = ast->namespace_token;
    /*const Name *name =*/ this->name(ast->name);
    // unsigned semicolon_token = ast->semicolon_token;
    // UsingNamespaceDirective *symbol = ast->symbol;
    return false;
}

bool FindUsages::visit(ObjCClassForwardDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned class_token = ast->class_token;
    for (NameListAST *it = ast->identifier_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
    // unsigned semicolon_token = ast->semicolon_token;
    // List<ObjCForwardClassDeclaration *> *symbols = ast->symbols;
    return false;
}

bool FindUsages::visit(ObjCClassDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned interface_token = ast->interface_token;
    // unsigned implementation_token = ast->implementation_token;
    /*const Name *class_name =*/ this->name(ast->class_name);

    Scope *previousScope = switchScope(ast->symbol);

    // unsigned lparen_token = ast->lparen_token;
    /*const Name *category_name =*/ this->name(ast->category_name);
    // unsigned rparen_token = ast->rparen_token;
    // unsigned colon_token = ast->colon_token;
    /*const Name *superclass =*/ this->name(ast->superclass);
    this->objCProtocolRefs(ast->protocol_refs);
    this->objCInstanceVariablesDeclaration(ast->inst_vars_decl);
    for (DeclarationListAST *it = ast->member_declaration_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned end_token = ast->end_token;
    // ObjCClass *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(ObjCProtocolForwardDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned protocol_token = ast->protocol_token;
    for (NameListAST *it = ast->identifier_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
    // unsigned semicolon_token = ast->semicolon_token;
    // List<ObjCForwardProtocolDeclaration *> *symbols = ast->symbols;
    return false;
}

bool FindUsages::visit(ObjCProtocolDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned protocol_token = ast->protocol_token;
    /*const Name *name =*/ this->name(ast->name);

    Scope *previousScope = switchScope(ast->symbol);

    this->objCProtocolRefs(ast->protocol_refs);
    for (DeclarationListAST *it = ast->member_declaration_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned end_token = ast->end_token;
    // ObjCProtocol *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(ObjCVisibilityDeclarationAST *ast)
{
    (void) ast;
    // unsigned visibility_token = ast->visibility_token;
    return false;
}

bool FindUsages::visit(ObjCPropertyDeclarationAST *ast)
{
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    // unsigned property_token = ast->property_token;
    // unsigned lparen_token = ast->lparen_token;
    for (ObjCPropertyAttributeListAST *it = ast->property_attribute_list; it; it = it->next) {
        this->objCPropertyAttribute(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    this->declaration(ast->simple_declaration);
    // List<ObjCPropertyDeclaration *> *symbols = ast->symbols;
    return false;
}

bool FindUsages::visit(ObjCMethodDeclarationAST *ast)
{
    this->objCMethodPrototype(ast->method_prototype);
    this->statement(ast->function_body);
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ObjCSynthesizedPropertiesDeclarationAST *ast)
{
    // unsigned synthesized_token = ast->synthesized_token;
    for (ObjCSynthesizedPropertyListAST *it = ast->property_identifier_list; it; it = it->next) {
        this->objCSynthesizedProperty(it->value);
    }
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

bool FindUsages::visit(ObjCDynamicPropertiesDeclarationAST *ast)
{
    // unsigned dynamic_token = ast->dynamic_token;
    for (NameListAST *it = ast->property_identifier_list; it; it = it->next) {
        /*const Name *value =*/ this->name(it->value);
    }
    // unsigned semicolon_token = ast->semicolon_token;
    return false;
}

// NameAST
bool FindUsages::visit(ObjCSelectorAST *ast)
{
    if (ast->name)
        reportResult(ast->firstToken(), ast->name);

    for (ObjCSelectorArgumentListAST *it = ast->selector_argument_list; it; it = it->next) {
        this->objCSelectorArgument(it->value);
    }
    return false;
}

bool FindUsages::visit(QualifiedNameAST *ast)
{
#if 0
    // unsigned global_scope_token = ast->global_scope_token;
    for (NestedNameSpecifierListAST *it = ast->nested_name_specifier_list; it; it = it->next) {
        this->nestedNameSpecifier(it->value);
    }
    const Name *unqualified_name = this->name(ast->unqualified_name);
#endif

    for (NestedNameSpecifierListAST *it = ast->nested_name_specifier_list; it; it = it->next) {
        NestedNameSpecifierAST *nested_name_specifier = it->value;

        if (NameAST *class_or_namespace_name = nested_name_specifier->class_or_namespace_name) {
            SimpleNameAST *simple_name = class_or_namespace_name->asSimpleName();

            TemplateIdAST *template_id = nullptr;
            if (! simple_name) {
                template_id = class_or_namespace_name->asTemplateId();

                if (template_id) {
                    for (ExpressionListAST *arg_it = template_id->template_argument_list; arg_it; arg_it = arg_it->next) {
                        this->expression(arg_it->value);
                    }
                }
            }

            if (simple_name || template_id) {
                const unsigned identifier_token = simple_name
                           ? simple_name->identifier_token
                           : template_id->identifier_token;

                if (identifier(identifier_token) == _id)
                    checkExpression(ast->firstToken(), identifier_token);
            }
        }
    }

    if (NameAST *unqualified_name = ast->unqualified_name) {
        unsigned identifier_token = 0;

        if (SimpleNameAST *simple_name = unqualified_name->asSimpleName())
            identifier_token = simple_name->identifier_token;
        else if (DestructorNameAST *dtor = unqualified_name->asDestructorName())
            identifier_token = dtor->unqualified_name->firstToken();

        TemplateIdAST *template_id = nullptr;
        if (! identifier_token) {
            template_id = unqualified_name->asTemplateId();

            if (template_id) {
                identifier_token = template_id->identifier_token;

                for (ExpressionListAST *template_arguments = template_id->template_argument_list;
                     template_arguments; template_arguments = template_arguments->next) {
                    this->expression(template_arguments->value);
                }
            }
        }

        if (identifier_token && identifier(identifier_token) == _id)
            checkExpression(ast->firstToken(), identifier_token);
    }

    return false;
}

bool FindUsages::visit(OperatorFunctionIdAST *ast)
{
    // unsigned operator_token = ast->operator_token;
    this->cppOperator(ast->op);
    return false;
}

bool FindUsages::visit(ConversionFunctionIdAST *ast)
{
    // unsigned operator_token = ast->operator_token;
    for (SpecifierListAST *it = ast->type_specifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    for (PtrOperatorListAST *it = ast->ptr_operator_list; it; it = it->next) {
        this->ptrOperator(it->value);
    }
    return false;
}

bool FindUsages::visit(SimpleNameAST *ast)
{
    // unsigned identifier_token = ast->identifier_token;
    reportResult(ast->identifier_token, ast->name);
    return false;
}

bool FindUsages::visit(TemplateIdAST *ast)
{
    // unsigned identifier_token = ast->identifier_token;
    reportResult(ast->identifier_token, ast->name);
    // unsigned less_token = ast->less_token;
    for (ExpressionListAST *it = ast->template_argument_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned greater_token = ast->greater_token;
    return false;
}


// SpecifierAST
bool FindUsages::visit(SimpleSpecifierAST *ast)
{
    (void) ast;
    // unsigned specifier_token = ast->specifier_token;
    return false;
}

bool FindUsages::visit(GnuAttributeSpecifierAST *ast)
{
    // unsigned attribute_token = ast->attribute_token;
    // unsigned first_lparen_token = ast->first_lparen_token;
    // unsigned second_lparen_token = ast->second_lparen_token;
    for (GnuAttributeListAST *it = ast->attribute_list; it; it = it->next) {
        this->attribute(it->value);
    }
    // unsigned first_rparen_token = ast->first_rparen_token;
    // unsigned second_rparen_token = ast->second_rparen_token;
    return false;
}

bool FindUsages::visit(MsvcDeclspecSpecifierAST *ast)
{
    for (GnuAttributeListAST *it = ast->attribute_list; it; it = it->next) {
        this->attribute(it->value);
    }
    return false;
}

bool FindUsages::visit(StdAttributeSpecifierAST *ast)
{
    for (GnuAttributeListAST *it = ast->attribute_list; it; it = it->next) {
        this->attribute(it->value);
    }
    return false;
}

bool FindUsages::visit(TypeofSpecifierAST *ast)
{
    // unsigned typeof_token = ast->typeof_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(DecltypeSpecifierAST *ast)
{
    // unsigned typeof_token = ast->typeof_token;
    // unsigned lparen_token = ast->lparen_token;
    this->expression(ast->expression);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(ClassSpecifierAST *ast)
{
    // unsigned classkey_token = ast->classkey_token;
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    /*const Name *name =*/ this->name(ast->name);

    Scope *previousScope = switchScope(ast->symbol);

    // unsigned colon_token = ast->colon_token;
    for (BaseSpecifierListAST *it = ast->base_clause_list; it; it = it->next) {
        this->baseSpecifier(it->value);
    }
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    // unsigned lbrace_token = ast->lbrace_token;
    for (DeclarationListAST *it = ast->member_specifier_list; it; it = it->next) {
        this->declaration(it->value);
    }
    // unsigned rbrace_token = ast->rbrace_token;
    // Class *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(NamedTypeSpecifierAST *ast)
{
    /*const Name *name =*/ this->name(ast->name);
    return false;
}

bool FindUsages::visit(ElaboratedTypeSpecifierAST *ast)
{
    // unsigned classkey_token = ast->classkey_token;
    for (SpecifierListAST *it = ast->attribute_list; it; it = it->next) {
        this->specifier(it->value);
    }
    /*const Name *name =*/ this->name(ast->name);
    return false;
}

bool FindUsages::visit(EnumSpecifierAST *ast)
{
    // unsigned enum_token = ast->enum_token;
    /*const Name *name =*/ this->name(ast->name);
    // unsigned lbrace_token = ast->lbrace_token;
    Scope *previousScope = switchScope(ast->symbol);
    for (EnumeratorListAST *it = ast->enumerator_list; it; it = it->next) {
        this->enumerator(it->value);
    }
    // unsigned rbrace_token = ast->rbrace_token;
    // Enum *symbol = ast->symbol;
    (void) switchScope(previousScope);
    return false;
}


// PtrOperatorAST
bool FindUsages::visit(PointerToMemberAST *ast)
{
    // unsigned global_scope_token = ast->global_scope_token;
    for (NestedNameSpecifierListAST *it = ast->nested_name_specifier_list; it; it = it->next) {
        this->nestedNameSpecifier(it->value);
    }
    // unsigned star_token = ast->star_token;
    for (SpecifierListAST *it = ast->cv_qualifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    return false;
}

bool FindUsages::visit(PointerAST *ast)
{
    // unsigned star_token = ast->star_token;
    for (SpecifierListAST *it = ast->cv_qualifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    return false;
}

bool FindUsages::visit(ReferenceAST *ast)
{
    (void) ast;
    // unsigned reference_token = ast->reference_token;
    return false;
}


// PostfixAST
bool FindUsages::visit(CallAST *ast)
{
    this->expression(ast->base_expression);
    // unsigned lparen_token = ast->lparen_token;
    for (ExpressionListAST *it = ast->expression_list; it; it = it->next) {
        this->expression(it->value);
    }
    // unsigned rparen_token = ast->rparen_token;
    return false;
}

bool FindUsages::visit(ArrayAccessAST *ast)
{
    this->expression(ast->base_expression);
    // unsigned lbracket_token = ast->lbracket_token;
    this->expression(ast->expression);
    // unsigned rbracket_token = ast->rbracket_token;
    return false;
}

bool FindUsages::visit(PostIncrDecrAST *ast)
{
    this->expression(ast->base_expression);
    // unsigned incr_decr_token = ast->incr_decr_token;
    return false;
}

bool FindUsages::visit(MemberAccessAST *ast)
{
    this->expression(ast->base_expression);
    // unsigned access_token = ast->access_token;
    // unsigned template_token = ast->template_token;

    if (ast->member_name) {
        if (SimpleNameAST *simple = ast->member_name->asSimpleName()) {
            if (identifier(simple->identifier_token) == _id)
                checkExpression(ast->firstToken(), simple->identifier_token);
        } else if (TemplateIdAST *templateId = ast->member_name->asTemplateId()) {
            if (identifier(templateId->identifier_token) == _id)
                checkExpression(ast->firstToken(), templateId->identifier_token);
            accept(templateId->template_argument_list);
        }
    }

    return false;
}


// CoreDeclaratorAST
bool FindUsages::visit(DeclaratorIdAST *ast)
{
    // unsigned dot_dot_dot_token = ast->dot_dot_dot_token;
    /*const Name *name =*/ this->name(ast->name);
    return false;
}

bool FindUsages::visit(DecompositionDeclaratorAST *ast)
{
    for (auto it = ast->identifiers->begin(); it != ast->identifiers->end(); ++it)
        name(*it);
    return false;
}

bool FindUsages::visit(NestedDeclaratorAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    this->declarator(ast->declarator);
    // unsigned rparen_token = ast->rparen_token;
    return false;
}


// PostfixDeclaratorAST
bool FindUsages::visit(FunctionDeclaratorAST *ast)
{
    // unsigned lparen_token = ast->lparen_token;
    Scope *previousScope = switchScope(ast->symbol);
    this->parameterDeclarationClause(ast->parameter_declaration_clause);
    // unsigned rparen_token = ast->rparen_token;
    for (SpecifierListAST *it = ast->cv_qualifier_list; it; it = it->next) {
        this->specifier(it->value);
    }
    this->exceptionSpecification(ast->exception_specification);
    this->trailingReturnType(ast->trailing_return_type);
    this->expression(ast->as_cpp_initializer);
    (void) switchScope(previousScope);
    return false;
}

bool FindUsages::visit(ArrayDeclaratorAST *ast)
{
    // unsigned lbracket_token = ast->lbracket_token;
    this->expression(ast->expression);
    // unsigned rbracket_token = ast->rbracket_token;
    return false;
}

void FindUsages::prepareLines(const QByteArray &bytes)
{
    _sourceLineEnds.reserve(1000);
    const char *s = bytes.constData();
    _sourceLineEnds.push_back(s - 1); // we start counting at line 1, so line 0 is always empty.

    for (; *s; ++s)
        if (*s == '\n')
            _sourceLineEnds.push_back(s);
    if (s != _sourceLineEnds.back() + 1) // no newline at the end of the file
        _sourceLineEnds.push_back(s);
}

QString FindUsages::fetchLine(unsigned lineNr) const
{
    QTC_ASSERT(lineNr < _sourceLineEnds.size(), return {});
    if (lineNr == 0)
        return QString();

    const char *start = _sourceLineEnds.at(lineNr - 1) + 1;
    const char *end = _sourceLineEnds.at(lineNr);
    return QString::fromUtf8(start, end - start);
}

